JPH08340317A - Communication equipment and communication method - Google Patents

Abstract

PURPOSE: To provide communication equipment and a communication method in which possibility of wire tapping of data by another system is precluded, stable transmission reception is attained and no transmission waiting takes place with respect to data transmission. CONSTITUTION: A transmitter side 400 stores sequentially plural transmission code strings (1-4) in advance and the stored code strings (1-4) are sequentially sent to a receiver 200 in the case of data transmission. On the other hand, a receiver side uses an error rate measurement section 23 to measure an error rate of each code sent from the transmitter side and selects either one of the plural code strings (1-4) stored in the transmitter 100 based on the measured error rate as a communication code string.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication device and a communication method using a spread spectrum communication system, and more particularly to a communication device and a communication method capable of performing stable data communication.

[0002]

2. Description of the Related Art A spread spectrum communication system is a modulation system in which a carrier is spread over a much wider bandwidth than the frequency bandwidth of a signal to be transmitted for communication, and PN code (pseudo noise, pseudo noise code) is used for transmitting data. Modulate to send.

Here, a conventional spread spectrum communication system will be described with reference to FIGS. 7 to 11.

FIG. 7 is a schematic block diagram showing a state in which a PN code is generated on the transmitting side and sent out as a radio wave. Information data 51 to be transmitted is spread-spectrum-modulated into a PN code by a PN generator 52 and then PN is applied. The reference numeral 53 indicates the carrier wave 5 generated by the carrier wave generator 55 in the mixer 54.
6, and the spread code is transmitted as a radio wave 57.

FIG. 8 is a schematic block diagram showing a state until the spread code is decoded on the receiving side.
7 is amplified by an amplifier 61, inverse spread spectrum modulated by a correlator 62, and further detected by a detector 63 to obtain a correlation pulse 64, which is decoded by a decoding unit 65.

Next, FIG. 9 is a time chart showing a state in which the information data 51 is spread-spectrum modulated by the PN generator 52 into the PN code 53 on the transmitting side shown in FIG. This is the PN generator 52 (LFSR, shown in FIG. 11).
Linear field back shift register)
Generated using a specific generator polynomial.

For example, as shown in FIG. 11, 6-stage shift registers (70-1, 70-2, 70-3, 70-).
4, 70-5, 70-6, 70-7), three kinds of (1) X ⁶ + X ⁵ + X ² + X + 1, (2) X ⁶ + X + 1, (3) X ⁶ + X ⁵ + X ² + X + 1, It is generated using the generator polynomial of.

For example, the data 1 is converted into a generator polynomial X ⁶ + X ⁵
+ X ² + X + 1 (hereinafter, this generator polynomial may be abbreviated as a generator polynomial (6.5.2.1)), and data 0 is generated as a generator polynomial X ⁶ + X + 1 (hereinafter, this generator polynomial is referred to as a generator polynomial It may be abbreviated as 6.1)).

Then, as shown in FIG. 9, the information data 5
Since the first data 51a of the 1 data is "0" data, it is encoded by the generator polynomial (6.1) to generate the PN code 53.
a, and the second data 51b is "1" data, so it is encoded by the generator polynomial (6.5.2.1) and PN
It is modulated to code 53b. The same applies to the following.

Next, FIG. 10 is a time chart showing how the receiving side shown in FIG. 8 modulates the received PN code into a correlation pulse. By the way, demodulation on the receiving side is performed by the correlator 62 that detects only the same pattern as the received PN code pattern.

For example, in FIG. 9, the generator polynomial (6.5.
2.1) and the generator polynomial (6.1) were used for encoding, the correlator that detects the pattern of the generator polynomial (6.5.2.1) and the pattern of the generator polynomial (6.1) were used. It is detected using two types of correlators for detecting. In addition,
In the description of FIG. 8, for convenience of description, the correlator 62 represents a plurality of correlators as described above.

Therefore, as shown in FIG.
Among the N codes 53, the PN code 53a encoded by the generator polynomial (6.1) is the correlation pulse 62 by the correlation pulse (6.1) 62A that detects the pattern of the generator polynomial (6.1).
The PN code 53b detected as a and is encoded by the generator polynomial (6.5.2.1) is the generator polynomial (6.5.2.
1) Correlation pulse (6.5.2.
1) 62B detects as a correlation pulse 62b. The same applies to the following.

FIG. 11 is a detailed configuration diagram showing an example of the PN generator 52 shown in FIG. 7. The PN generator 52 is an LF.
Six shift registers 70-1, 70-2, 70 are configured by SR (linear field back shift register).
-3, 70-4, 70-5, 70-6, 70-7 and 3
Two exclusive OR circuits (Ex-OR) 71, 72, 73
It is composed of

The so-called M-sequence PN code that is generally used has three types in a six-stage generator polynomial, and three types in five stages.
One species is known for the species, 4th stage and 3rd stage.

By the way, the spread spectrum communication system is
As described above, a modulation method in which a carrier is spread over a much wider bandwidth than the frequency bandwidth of a signal to be transmitted, and for example, to transmit information at a transmission rate of 1 Mbit / sec, a frequency of about 20 MHz. Spread over the bandwidth and transmit. Therefore, even if an interference wave enters some frequency bands, information can be reproduced based on signals in other bands.

Therefore, (1) it is less likely to be affected by noise, and (2) it is less likely to interfere with other communication systems.
(3) Strong against multipath caused by reflected waves from mountains and buildings,
It has characteristics such as the above, and has been made into an LSI in recent years and has been popularized in various fields.

[0017]

However, the conventional spread spectrum communication system as described above has the following problems. (1) Normal communication is possible if different PN codes are used in the same frequency band, but if the same PN code as in another system is used, data may be read. (2) When the own system and the other system use the same PN code, the reception from the own system and the reception from the other system interfere with each other and the reception is not stable. (3) In order to avoid the problem of (2) above, if transmission is not permitted during reception from another system, it takes time to transmit.

Therefore, it is an object of the present invention to provide a communication device and a communication method in which there is no risk of reading data from other systems, stable transmission / reception is possible, and a transmission wait does not occur for data transmission.

[0019]

In order to achieve the above-mentioned object, the invention of claim 1 has a feature that a predetermined code string transmitted from the transmitter side is received by the receiver side, and thus the transmitter and the receiver are connected to each other. In a communication device that performs spread spectrum communication, the transmitter includes one of a code string storage unit that stores a plurality of code strings and a code string stored in the code string storage unit.
And a code string transmitting means for transmitting one, wherein the receiver is an error rate measuring means for measuring an error rate of a code string transmitted from the transmitter side, and the error rate measuring means measures the error rate. And a code string selecting unit that selects one of the plurality of code strings stored in the code string storing unit as a communication code string based on the error rate.

According to a second aspect of the present invention, in a communication method for performing spread spectrum communication between a transmitter and a receiver by receiving a predetermined code string transmitted from the transmitter on the receiver side, the transmitter comprises: Storing a plurality of code sequences, and transmitting one of the stored code sequences, wherein the receiver determines the error rate of the code sequences transmitted from the transmitter side. It has a step of measuring and a step of selecting one of a plurality of code strings stored in the transmitter side as a communication code string based on the measured error rate.

According to a third aspect of the present invention, in a communication device for performing spread spectrum communication between a transmitter and a receiver by receiving a predetermined code string transmitted from the transmitter on the receiver side, the transmitter comprises: The code string storage means for storing a plurality of code strings, and the code string transmitting means for transmitting the code string with the identification code of the code string are transmitted, wherein the receiver is the code string transmitting means. Code string receiving means for receiving the transmitted code string, error rate measuring means for measuring the error rate of the code string received by the code string receiving means, and based on the error rate measured by the error rate measuring means Communication state determining means for determining the communication state of the transmitted code sequence, and a code for selecting the code sequence as a communication code sequence based on the determination result of the communication state determining means based on the communication state of the transmitted code sequence. Row And-option means, first for returning the identification code of the code sequence selected by the code sequence selection means to the transmitter
And an identification code returning means.

According to a fourth aspect of the present invention, in the communication device according to the third aspect, the code string receiving means receives the code string corresponding to the type of the code string stored in the code string storing means of the transmitter. It is characterized by comprising a code string receiving means.

A fifth aspect of the present invention is the communication device according to the third aspect, wherein the transmitter receives the reply of the identification code of the code string having a good communication state by the first identification code reply means. After that, communication with the receiver side is performed using the code string.

According to a sixth aspect of the present invention, in a communication device for performing spread spectrum communication between a transmitter and a receiver by receiving a predetermined code string transmitted from the transmitter on the receiver side, the transmitter comprises: The code string storage means for storing a plurality of code strings, and the code string transmitting means for transmitting the code string with the identification code of the code string are transmitted, wherein the receiver is the code string transmitting means. Code string receiving means for receiving the transmitted code string, error rate measuring means for measuring the error rate of the code string received by the code string receiving means, and based on the error rate measured by the error rate measuring means Communication state determining means for determining the communication state of the transmitted code sequence, and if the communication state of the transmitted code sequence is poor as a result of the determination by the communication state determining means, the determination result of the code sequence is identified as the code sequence. Code and And having a second identification code returning means for returning to the transmitter, to the.

According to a seventh aspect of the present invention, in the communication apparatus according to the sixth aspect, the transmitter has a defective communication state of a code string transmitted from the transmitter side by the second identification code returning means. When the reply is received, a different code string is transmitted.

The present invention of claim 8 is a communication method for performing spread spectrum communication between a transmitter and a receiver by receiving a predetermined code string transmitted from the transmitter on the receiver side, wherein the transmitter is The method includes storing a plurality of code strings, calling the stored code strings, and adding the identification code of the code string to the called code string and transmitting the received code string. The machine receives the transmitted code sequence, measures the error rate of the received code sequence, and determines the communication status of the transmitted code sequence based on the measured error rate. And a step of selecting the code string as a communication code string if the communication state of the transmitted code string is good as a result of the determination, and an identification code of the selected code string to the transmitter. And a second reply step of returning the judgment result of the code string to the transmitter together with the identification code of the code string if the communication state of the transmitted code string is poor as a result of the judgment. , Are included.

The invention of claim 9 is the communication method according to claim 8, wherein the step of receiving the code string corresponds to the type of the code string stored in the step of storing the code string of the transmitter. And receiving the code sequence.

A tenth aspect of the present invention is the communication method according to the eighth aspect, wherein when the transmitter receives a reply of the identification code of the code string having a good communication state in the first reply step, It is characterized in that communication with the receiver side is performed by the code string.

An eleventh aspect of the invention is the communication method according to the eighth aspect, wherein the transmitter replies that the communication state of the code string transmitted from the transmitter side in the second reply step is poor. When received, it is characterized by transmitting different code sequences.

The invention of claim 12 is the communication device or the communication method according to claim 1, claim 3, claim 6 or claim 8, wherein the code string is an arbitrary PN code string. Is characterized by.

[0031]

In the communication device and the communication method according to the present invention,
A plurality of transmission code strings are stored in advance on the transmitter side, and when data is transmitted, the stored code strings are first transmitted to the receiver side. On the other hand, the receiver side measures the error rate of each code string transmitted from the transmitter side, and based on this measured error rate, one of the plurality of code strings stored in the transmitter side is measured. Select as a communication code string.

[0032]

Embodiments of a communication device and a communication method according to the present invention will be described below in detail with reference to the drawings.

FIG. 1 is a diagram showing a schematic configuration of an embodiment of a communication device and a communication method according to the present invention to which a spread spectrum communication system is applied.

The communication system shown in FIG.
00 and the wireless device 200 perform communication using a spread spectrum communication method.
Have the same configuration, but for convenience of explanation, the wireless device 10
Since a case of transmitting from 0 to the wireless device 200 will be described, the wireless device 100 is mainly illustrated as a transmitting side wireless device, and the wireless device 200 is mainly illustrated as a receiving side wireless device. To do.

First, the configuration will be described. The transmitter radio 1
00 is a transmitter (10-1), a receiver (20-1), P
N code string storage unit 18, memory 19, code string switching unit 1
7, a mixer 14, a changeover switch (15-1), and an antenna (16-1).

Here, the transmission unit (10-1) has a shift register 11, selects a predetermined code string from a plurality of code strings stored in the PN code string storage unit 18, and sets it in the shift register 11. Then, the PN code 12 is generated based on the code string set in the shift register 11.

The receiving section (20-1) is a receiver radio 20.
The received data from 0 is received, and error rate determination information measured by the receiving-side radio device 200, which will be described later, and the like are received.

The PN code string storage section 18 is used for the receiving side radio 2
A plurality of PN code strings (1 to 4) for error rate measurement, which are measured at 00, are stored, and as will be described later, this PN code string is selected until a PN code string with a good communication state is selected.
The plurality of PN code strings stored in the code string storage unit 18 are sequentially set in the shift register 11 of the transmission unit (10-1). The PN code string storage unit 18 is not limited to the M-series PN code as described in the description of the conventional example.
An arbitrary PN code string is stored.

Further, the memory 19 stores data when the identification codes of the plurality of PN code strings (1 to 4) stored in the PN code string storage unit 18 and the PN code string for error rate measurement are transmitted. When the PN code strings (1 to 4) stored in the PN code string storage unit 18 are transmitted from the transmitting unit (10-1) to the receiving-side wireless device 200, the formats and the like are stored. In the format as shown in FIGS. 3A and 3C, an identification code corresponding to the PN code string to be transmitted is added and transmitted.

The code string switching section 17 includes a transmitting section (10-
The code string set in the shift register 11 of 1) is switched, and when the error rate measured by the receiving-side radio device 200 is equal to or lower than a predetermined value, the PN code string is stored until an error rate of the predetermined value or higher is obtained. P stored in section 18
The N code strings are sequentially switched and set in the shift register 11.

The mixer 14 mixes the PN code 12 and the carrier wave 13 sent from the transmitter (10-1).

The change-over switch (15-1) is used for transmitting (1) when transmitting / receiving data to / from the receiving side radio 200.
The switching connection is made to the 0-1) side or the receiving section (20-1) side.

The antenna (16-1) is for transmitting and receiving radio waves.

Next, the receiving radio 200 has a receiving section (20-2) including a correlator section 21 having a plurality of correlators (1 to 4) and a decoding section 22, and an error rate measuring section 2
3, communication state determination unit 24, transmission unit (10-2), memory 29, antenna (16-2), changeover switch (15
-2).

Here, each correlator (1, 2, 3, 4) constituting the correlator unit 21 detects only the same pattern as the received PN code pattern and outputs a correlation pulse (inverse spectral spread). The PN code string storage unit 18 is provided corresponding to the PN code strings (1 to 4) stored in the PN code string storage unit 18 of the transmission-side wireless device 100.
The number of PN code strings stored in (4 in this embodiment)
is there.

Further, the decoding unit 22 decodes the PN code sequence converted into the correlation pulse by the correlator unit 21 to obtain a baseband signal.

Next, the error rate measuring unit 23 measures the error rate of the PN code received by the receiving radio device 200, that is, the receiving accuracy, based on the baseband signal sent from the decoding unit 22. . The error rate is measured by storing the bit pattern of each PN code string in advance and comparing the pattern with the bit pattern of the baseband signal actually sent from the decoding unit 22, that is, the base pattern. This is done by counting the number of error bits in the band signal.

The communication state judging section 24 judges the communication state of the received PN code on the basis of the error rate measured by the error rate measuring section 23. Communication is performed when the value of the error rate is a predetermined value or more. If it is judged that the condition is good,
Based on the PN code received at that time, data is transmitted / received between both radios thereafter. If the error rate value is less than or equal to the predetermined value and it is determined that the communication state is poor, the transmitter wireless device 1
No. 00 requesting transmission of another PN code string stored in the PN code string storage unit 18.

The transmitting section (10-2) sends the determination result of the communication state determining section 24 to the transmitting side wireless device 100 based on the data stored in the memory 29.

The memory 29 stores a data format and the like when the determination result and the like in the communication state determining unit 24 are transmitted to the transmitting side radio 100, and stores the determination result and the like in the communication state determining unit 24. When transmitting to the transmitting side wireless device 100, it is transmitted in the format as shown in (b) and (d) of FIG.

The changeover switch (15-2) is used for transmitting (1) when transmitting / receiving data to / from the transmitting side radio 100.
The switching connection is made to the 0-2) side or the receiving section (20-2) side.

The antenna (16-2) is for transmitting and receiving radio waves.

The configuration of the communication apparatus and the communication method according to the present embodiment has been described above. The operation will be described below.

By the way, also in this embodiment, the transmitter radio 1
00 and the receiving-side wireless device 200 perform communication by a spread spectrum communication method using a PN code, but the PN code used at that time is an arbitrary P that is not restricted to the M sequence.
This is an N code pattern, and such an arbitrary PN code pattern is stored in the PN code string storage unit 18 of the plurality of types of transmitter radios 100. Then, in this embodiment, the P stored in the PN code string storage unit 18 of the transmission-side wireless device 100 is stored.
Of the N code patterns, the PN code in the best communication state is selected from the surrounding conditions and the like, and communication is performed by spread spectrum.

Therefore, the processing procedure in the case where the PN code having the best communication state is selected from the surrounding conditions will be described below with reference to FIGS. 2 to 6.

FIG. 2 is a time chart showing a processing procedure in the case where the wireless device 100 is used as the transmitting wireless device and the wireless device 200 is used as the receiving wireless device, and the PN code with the best communication state is selected. .

In this process, first, the transmitter radio 100
The code string 1 which is one of the code strings stored in the PN code string storage unit 18 is set in the shift register 11 of the transmission unit (10-1) and is sent to the receiving-side radio device 200 as the code string request signal 31. It is transmitted (step 100).

FIG. 3A shows the data format of the code string request signal 31 transmitted from the transmitter radio 100. The code string request signal 31 is used to request the code string. Packet 31 indicating that it is
a, a packet 31b indicating that the code string to be transmitted for the code string request is the code string 1, and a packet 31c indicating a specific PN code pattern of the code string 1.

FIG. 4 shows the contents of each packet forming the code string request signal 31 in a bit configuration, but the packet 31a showing that it is for a code string request.
Includes a synchronization flag (31a-1) of 8 bits and a code string request flag (31a-2) of 8 bits.
The packet 31b indicating that the code string to be transmitted for the code string request is the code string 1 is composed of 8 bits, and the packet 31c indicating the concrete PN code pattern of the code string 1 is composed of 511 bits.

Next, as described above, the transmitter radio 100
When the code string request signal 31 is transmitted to the receiving side wireless device 200 from the receiving side wireless device 200, the receiving side wireless device 200 outputs the same PN code pattern as the transmitted code string 1 in the correlator of the receiving unit (20-2). A correlation pulse is detected by a correlator having
Further, it is converted into a base band by the decoding unit 22.

Then, the communication accuracy of this baseband signal is measured by the error rate measuring section 23 (step 110).

Next, the communication state judging section 24 judges whether or not to communicate with the PN code of the transmitted code string 1 based on the communication accuracy measured by the error rate measuring section 23 (step 120). .

Then, the judgment result is returned as a code string response signal to the transmitting side wireless device 100. Here, for example, if it is judged that the code string 1 is not suitable for communication,
The code string response signal 32 is returned from the transmission unit (10-2) to the transmission-side wireless device 100 (step 140).

FIG. 3 (b) shows the data format of the code string response signal 32 returned to the transmitting side radio 100. The code string response signal 32 is used for the code string response. Packet 32a indicating that the
The packet 32b indicating that the code string to be returned for the code string response is the code string 1, the packet 32c indicating that the content of the response is NG, and the code string 2 instead of the code string 1 are transmitted. It comprises a request packet 31d.

Since the contents of each packet forming the code string response signal 32 in this case is similar to the structure shown in FIG. 4, its specific contents will be omitted.

Receiving section (20-1) of the transmitting radio device 100
When the code string response signal 32 is received, the code string 2
The PN code pattern is transmitted to the receiving wireless device 200 (step 100).

This is performed by selecting the code string 2 from the code string storage unit 18 according to the command of the code string switching unit 17 and setting the code string 2 in the shift register 11 of the transmitting unit (10-1). .

Then, the transmitting section (1
From 0-1), the code string request signal 33 is transmitted to the reception-side wireless device 200, similarly to the case where the code string request signal 31 is transmitted. FIG. 3C shows the data format in that case.

Then, the receiving side radio 200 judges the communication accuracy based on the PN code transmitted again (step 110).

If the determination result indicates that communication is permitted (YES in step 120), the code string response signal 34 indicating communication is returned to the transmitting side wireless device 100 (step 130). ). FIG. 3D shows the data format in that case, but the code string response signal 34
Is a packet 34a indicating that this signal is for the code string response, a packet 34b indicating that the code string to be returned for the code string response is the code string 2, and the content of the response is OK. Packet 34c indicating

In this way, from the transmission side radio 100, a PN code suitable for the communication state at that time is selected from the code sequence data stored in the code sequence storage unit 18, and thereafter, the selected PN code is selected. Based on this, data will be transmitted.

In FIG. 5, the code string data stored in the code string storage unit 18 from the transmitter wireless device 100 corresponds to the receiver wireless device 20.
10 is a flowchart showing a processing procedure in the receiving-side wireless device 200 when the error rate of the PN code is determined by being transmitted to 0. The processing procedure in this case will be described below with reference to this flowchart.

In this process, first, the PN code data transmitted from the transmitter radio 100 is set to the error rate measuring unit 23.
(Step 200), and it is checked whether or not a predetermined measurement time has been reached (Step 210).

Then, when the measurement time is reached (step 2
10), the error rate measurement result is output (step 220).

The error rate is measured at each PN.
The bit pattern of the code string is stored in advance and the pattern comparison with the bit pattern of the baseband signal actually sent from the decoding unit 22 is performed, that is, the number of error bits in the baseband signal is counted. It is done by

Next, this measurement result is shown in the communication state judging section 24.
And the communication status is determined (step 23).
0).

Then, if the result of this judgment is, for example, better than the predetermined reference value (Yes at step 230), OK is output to the transmitting radio 100 (step 240), and if not (step 230 No). ), NG is output to the wireless device 100 on the transmitting side (step 250), and the processes from step 200 onward are performed again.

As described above, in the present embodiment, the PN code string storage unit 1 stores an arbitrary PN code string not limited to the M series.
The data is stored in advance in No. 8 and the PN code string having a good communication state is selected in the surrounding environment at each time so that the data can be transmitted. Therefore, there is no correlation from other systems that use the PN code string based on the M-sequence generator polynomial, and stable reception can be obtained.

Further, as a result, there is no fear that the data will be read from another system, and the confidentiality is improved.

Further, even during reception, since the PN code string different from the PN code string being received can be used for transmission, the state of waiting for transmission does not occur and rapid data transmission is possible.

Further, in this embodiment, an arbitrary PN code string which is not restricted to the M sequence is stored in the PN code string storage unit 18 in advance, and a PN code string having a good communication condition in the surrounding environment at that time is selected. Since it can be used to transmit data, the data transmission speed is increased.

This is because spread spectrum communication is not performed using a general-purpose PN code, but a PN code string with a good communication state can be used in the surrounding environment at any given time. As shown in FIG. 6A, 63 chips are used for 1 bit of the baseband signal, but in this embodiment, 31 chips are used for 1 bit of the baseband signal as shown in FIG. 6B. Because it is enough.

In the above description, the transmitter radio 10
The case where the number of PN code strings stored in the PN code string storage unit 0 of 0 is 4 has been described.
It goes without saying that the number of PN code strings stored in 8 can be increased or decreased as necessary.

[0084]

As described above, in the communication device and the communication method according to the present invention, a plurality of transmission code strings are stored in advance on the transmitter side, and when transmitting data, the stored codes are first stored. Sequentially transmit the columns to the receiver side. on the other hand,
The receiver side measures the error rate of each code string transmitted from the transmitter side, and uses one of the plurality of code strings stored in the transmitter side for communication based on the measured error rate. Select as a code string.

Therefore, there is an effect that it is possible to provide a communication device and a communication method that do not have a possibility of reading data from other systems, can perform stable transmission / reception, and do not cause a transmission wait for data transmission.

[Brief description of drawings]

FIG. 1 is a diagram showing a schematic configuration of an embodiment of a communication system configured by applying a communication device and a communication method according to the present invention.

FIG. 2 is a time chart showing a processing procedure when a code string having a good communication state is selected in the system shown in FIG.

3 is an explanatory diagram of a data format of a code string request signal transmitted from a transmitting side and a code string response signal transmitted from a receiving side in the time chart shown in FIG.

4 is a data configuration diagram of a code string request signal transmitted from the transmission side in the data format shown in FIG.

5 is a flowchart showing a processing procedure when a code string in a good communication state is selected in the system shown in FIG.

FIG. 6 is an operation explanatory view for explaining that the data transmission time becomes shorter than the conventional one in the communication system configured by applying the communication device and the communication method according to the present invention.

FIG. 7 is a schematic configuration diagram of a transmitting side in conventional spread spectrum communication.

FIG. 8 is a schematic configuration diagram of a receiving side in conventional spread spectrum communication.

9 is an explanatory diagram of a case where information data is modulated into a PN code on the transmitting side in the conventional spread spectrum communication shown in FIG. 7.

10 is an explanatory diagram in the case where the PN code is modulated into information data on the receiving side in the conventional spread spectrum communication shown in FIG.

11 is a detailed circuit diagram of a PN code generator in the conventional spread spectrum communication shown in FIG.

[Explanation of symbols]

 10-1, 10-2 Transmission unit 11 Shift register 12 PN code 13 Carrier wave 14 Mixer 15-1, 15-2 Switch 16-1, 16-2 Antenna 17 Code string switching unit 18 PN code string storage unit 19 Memory 20- 1 to 20-2 receiving unit 21 correlator unit 22 decoding unit 23 error rate measuring unit 24 communication state determining unit 29 memory 31, 33 code string request signal 32, 34 code string response signal 100 wireless device (transmitting wireless device) 200 radios (receiver radios)

Claims (12)

[Claims] 1. A communication device for performing spread spectrum communication between a transmitter and a receiver by receiving a predetermined code string transmitted from the transmitter side at a receiver side, wherein the transmitter has a plurality of code strings. A code string storing means for storing the code string, and a code string transmitting means for transmitting one of the code strings stored in the code string storing means, wherein the receiver is transmitted from the transmitter side. Error rate measuring means for measuring the error rate of the code string, and one of the plurality of code strings stored in the code string storing means based on the error rate measured by the error rate measuring means for communication code A communication device, comprising: a code string selecting unit that selects a string. 2. A communication method in which spread spectrum communication is performed between a transmitter and a receiver by receiving a predetermined code string transmitted from the transmitter side at the receiver side, wherein the transmitter has a plurality of code strings. Storing, and transmitting one of the stored code sequences, the receiver measuring an error rate of the code sequence transmitted from the transmitter side, Selecting one of a plurality of code strings stored on the transmitter side as a communication code string based on the measured error rate, the communication method. 3. A communication device for performing spread spectrum communication between a transmitter and a receiver by receiving a predetermined code string transmitted from the transmitter side at the receiver side, wherein the transmitter has a plurality of code strings. A code string storage unit for storing the code string; and a code string transmitting unit for transmitting the code string with an identification code of the code string transmitted, wherein the receiver is the code string transmitted by the code string transmitting unit. A code string receiving means for receiving the error rate, an error rate measuring means for measuring an error rate of the code string received by the code string receiving means, and a code transmitted based on the error rate measured by the error rate measuring means. A communication state determining means for determining the communication state of the sequence; a determination result of the communication state determining means; a code sequence selecting means for selecting the code sequence as a communication code sequence based on the communication state of the transmitted code sequence; A first identification code returning means for returning the identification code of the code string selected by the code string selecting means to the transmitter, the communication device comprising: 4. The code string receiving means comprises a code string receiving means for receiving in accordance with the type of the code string stored in the code string storing means of the transmitter. 3. The communication device according to item 3. 5. When the transmitter receives a reply of an identification code of a code string in a good communication state by the first identification code replying means, the transmitter performs communication with the receiver side by the code string thereafter. The communication device according to claim 3, wherein the communication device is a communication device. 6. A communication device for performing spread spectrum communication between a transmitter and a receiver by receiving a predetermined code string transmitted from the transmitter side at the receiver side, wherein the transmitter has a plurality of code strings. A code string storage unit for storing the code string; and a code string transmitting unit for transmitting the code string with an identification code of the code string transmitted, wherein the receiver is the code string transmitted by the code string transmitting unit. A code string receiving means for receiving the error rate, an error rate measuring means for measuring an error rate of the code string received by the code string receiving means, and a code transmitted based on the error rate measured by the error rate measuring means. If the communication state of the transmitted code string is poor as a result of the determination made by the communication state determining means and the communication state determining means, the determination result of the code string is transmitted together with the identification code of the code string. A second identification code returning means for returning to the machine, and a communication device. 7. The transmitter transmits a different code string when receiving a reply indicating that the communication status of the code string transmitted from the transmitter side by the second identification code replying means is poor. The communication device according to claim 6. 8. A communication method for performing spread spectrum communication between a transmitter and a receiver by receiving a predetermined code string transmitted from the transmitter side at a receiver side, wherein the transmitter has a plurality of code strings. A step of storing, a step of calling the stored code string, and a step of adding the identification code of the code string to the called code string and transmitting the code string. Receiving the encoded code string, measuring the error rate of the received code string, determining the communication state of the transmitted code string based on the measured error rate, the determination As a result, if the communication state of the transmitted code sequence is good, a step of selecting the code sequence as a communication code sequence, and a step of returning the identification code of the selected code sequence to the transmitter And a second reply step of returning the determination result of the code string together with the identification code of the code string to the transmitter if the communication state of the transmitted code string is poor as a result of the above determination. A communication method characterized by. 9. The step of receiving the code sequence comprises the step of receiving the code sequence corresponding to the type of the code sequence stored in the step of storing the code sequence of the transmitter. The communication method according to claim 8. 10. The transmitter, upon receiving a reply of an identification code of a code string in a good communication state in the first reply step, thereafter communicates with the receiver side using the code string. The communication method according to claim 8. 11. The transmitter transmits a different code string when receiving a reply indicating that the communication status of the code string transmitted from the transmitter side is bad in the second reply step. 8. The communication method described in 8. 12. The communication device or the communication method according to claim 1, wherein the code string is an arbitrary PN code string.